4,773 research outputs found
LPDQ: a self-scheduled TDMA MAC protocol for one-hop dynamic lowpower wireless networks
Current Medium Access Control (MAC) protocols for data collection scenarios with a large number of nodes that generate bursty traffic are based on Low-Power Listening (LPL) for network synchronization and Frame Slotted ALOHA (FSA) as the channel access mechanism. However, FSA has an efficiency bounded to 36.8% due to contention effects, which reduces packet throughput and increases energy consumption. In this paper, we target such scenarios by presenting Low-Power Distributed Queuing (LPDQ), a highly efficient and low-power MAC protocol. LPDQ is able to self-schedule data transmissions, acting as a FSA MAC under light traffic and seamlessly converging to a Time Division Multiple Access (TDMA) MAC under congestion. The paper presents the design principles and the implementation details of LPDQ using low-power commercial radio transceivers. Experiments demonstrate an efficiency close to 99% that is independent of the number of nodes and is fair in terms of resource allocation.Peer ReviewedPostprint (author’s final draft
Wireless distance estimation with low-power standard components in wireless sensor nodes
In the context of increasing use of moving wireless sensor nodes the interest
in localizing these nodes in their application environment is strongly rising.
For many applications, it is necessary to know the exact position of the nodes
in two- or three-dimensional space. Commonly used nodes use state-of-the-art
transceivers like the CC430 from Texas Instruments with integrated signal
strength measurement for this purpose. This has the disadvantage, that the
signal strength measurement is strongly dependent on the orientation of the
node through the antennas inhomogeneous radiation pattern as well as it has a
small accuracy on long ranges. Also, the nodes overall attenuation and output
power has to be calibrated and interference and multipath effects appear in
closed environments. Another possibility to trilaterate the position of a
sensor node is the time of flight measurement. This has the advantage, that the
position can also be estimated on long ranges, where signal strength methods
give only poor accuracy. In this paper we present an investigation of the
suitability of the state-of-the-art transceiver CC430 for a system based on
time of flight methods and give an overview of the optimal settings under
various circumstances for the in-field application. For this investigation, the
systematic and statistical errors in the time of flight measurements with the
CC430 have been investigated under a multitude of parameters. Our basic system
does not use any additional components but only the given standard hardware,
which can be found on the Texas Instruments evaluation board for a CC430. Thus,
it can be implemented on already existent sensor node networks by a simple
software upgrade.Comment: 8 pages, Proceedings of the 14th Mechatronics Forum International
Conference, Mechatronics 201
Communication system for a tooth-mounted RF sensor used for continuous monitoring of nutrient intake
In this Thesis, the communication system of a wearable device that monitors the user’s diet is studied. Based in a novel RF metamaterial-based mouth sensor, different decisions have to be made concerning the system’s technologies, such as the power source options for the device, the wireless technology used for communications and the method to obtain data from the sensor. These issues, along with other safety rules and regulations, are reviewed, as the first stage of development of the Food-Intake Monitoring projectOutgoin
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